MET MET-D1A User manual

Category
Measuring, testing & control
Type
User manual

This manual is also suitable for

CONTENTS
Introduction
1. Purpose
2. General recommendations
3. Technical data
4. Complete set of equipment
5. Design and operation principles
6. Operation procedure
6.1 Preparation for operation
6.2 Operation with electronic module
6.2.1 Beginning of work
6.2.2 “Measurement” mode
6.2.3 “Calibration” mode
6.2.4 “Processing” mode
6.2.5 Connection with computer
6.3 Probe operation
6.3.1 U1 ultrasonic probe
6.3.2 D1 dynamic probe
7. Technical maintenance and special conditions of operation
8. Precautions and troubleshooting
9. Manufacturers guarantee and service maintenance
1
..................................................................................................................................
.....................................................................................................................................
....................................................................................................
.......................................................................................................................
...................................................................................................
...........................................................................................
............................................................................................................
.............................................................................................
................................................................................
...........................................................................................
......................................................................................
.........................................................................................
..........................................................................................
...............................................................................
...........................................................................................................
..........................................................................................
............................................................................................
..............................................
.........................................................................................
...........................................................
4
2
5
5
7
9
12
12
14
14
14
16
18
18
19
19
20
21
22
24
INTRODUCTION
ThemanufacturerisMET Ltd. The CentreForPhysicalAndMechanicalMeasurements.
The License#000087-IRforproductionandmaintenanceofmeasuringequipmentwasissued
by the FederalAgencyforTechnicalRegulationandMetrologyofRF.Themailingaddressis:
POB 117,Moscow,124460, Russia.
The present Technical Reference and Operation Manual (hereinafter referred to as “TR”) is a
document which certifies the guaranteed by the manufacturer main parameters and technical
characteristicsofportablehardnesstesters in plastic / aluminum body of electronic module :
?Ultrasonic(MET-U1 / MET-U1A)
?Dynamic(MET-D1 / MET-D1A)
?Combined(MET-UD /MET-UDA)
MET-U1 Ultrasonic portable hardness tester is manufactured in compliance with TU 4271 –
001 – 18606393-01).
Certificate of Approval of this type measuring equipment #7951 is registered in SI State Register
under the number of 19623-00 and the equipment is recommended for application in the Russian
Federation.
Registration Certificate #MT 093 2004 is registered in the Industry Register of Measuring
Equipment Recommended to be used in Railroad Transport, Chapter “Measuring Equipment
Used in Locomotive Service”, in the Russian Federation.
Certificate of Approval of this type of measuring equipment #2567is registered in SI State
Register under the number of РБ 03 03 2047 03 and the equipment is recommended for
application in the republic of Byelorussia.
Certificate of Recognition of Approval of this type of measuring equipment - Series E # 000980
– is registered in the State Register of measuring facilities under the number of # UA-MI/3p-656-
2004 and the equipment is recommended for application in Ukraine under the number of 19623-
03.
Certificate of Recognition of Approval of measuring equipment # 2871 is registered in the
Register of the State System for Ensuring Uniform Measurement of the republic of Kazakhstan
under the number of KZ.02.03.01465-2006/19623-00, and the equipment is recommended to be
used and imported into the republic of Kazakhstan.
MET-D1 Dynamic portable hardness tester is manufactured in compliance with TU 4271 –
003 – 18606393-03).
Certificate of Approval of measuring equipment, type #11910 is registered in SI State Register
under the number of 22736-02 and the equipment is recommended for application in the Russian
Federation.
Certificate of Approval of measuring equipment, type #2566 is registered in SI State Register
under the number of РБ 03 03 2046 03 and the equipment is recommended for application in the
republic of Byelorussia.
Certificate of Recognition of Approval of this type of measuring equipment -- Series E #000982
- is registered in the State Register of measuring facilities under the number of #UA-MI/3p-657-
2004 and the equipment recommended for application in Ukraine under the number of 22736-04.
2
Certificate of Recognition of Approval of measuring equipment #2872 is registered in the
Register of the State System for Ensuring Uniform Measurement of the republic of Kazakhstan
under the number of KZ.02.03.01466-2006/22736-02, and the equipment is recommended to be
used and imported into the republic of Kazakhstan.
MET-UD Combined portable hardness tester is manufactured in compliance with TU 4271 –
004 – 18606393-04).
Certificate of Approval of measuring equipment, type #11911 is registered in SI State Register
under the number of 22737-02 and the equipment recommended for application in the Russian
Federation.
Certificate of Approval of measuring equipment, type #2568 is registered in SI State Register
under the number of РБ 03 03 2048 03 and the equipment is recommended for application in the
republic of Byelorussia.
Certificate of recognition of approval of measuring equipment, - Series E #000984 – is registered
in the State Register of measuring facilities under the number of #UA-MI/3p-658-2004 and the
equipment is recommended for application in Ukraine under the number of 22737-02.
Certificate of Recognition of Approval of measuring equipment #11469 is registered in the
Register of the State System for Ensuring Uniform Measurement of the republic of Kazakhstan
under the number of KZ.02.03.00433-2004/22737-02, and the equipment is recommended to be
used and imported into the republic of Kazakhstan.
Hardness tester physical form may be slightly different from the models given in the pictures of
the present Technical Reference and Operation Manual. The manufacturer has the right to make
some changes in the tester design, which would not give any impact on the metrological
characteristics without any prior notification.
3
1. PURPOSE
1.1 Portable hardness tester (hereinafter referred to as the “hardness tester”) is designed to
measure hardness of metals and alloys. There are 8 independent hardness scales in the
hardness tester. Prior to the delivery, the manufacturer carries out the preliminary calibration
of hardness tester on 4 scales, Rockwell (HRC), Brinell (HB), Vickers (HV) and Shore
(HSD). Every scale in the hardness tester is calibrated on reference test blocks (i.e.
conversion tables are not used) graduated on the National Hardness Standards (Scientific
Research Institute for Physical-Technical and Radio-Technical Measurements (VNIIFTRI)
which is the main metrological institute of Russia in the field of hardness measurements, and
which keeps and maintains the state hardness primary standard machines on Rockwell and
Super-Rockwell (GET 30-94), Brinell (GET 33-85), Vickers (GET 31-06) and Shore D
(GET 161-04) scales.), which provides for the highest calibration level. Verification
Certificate of the approved by the state form is attached to every hardness tester.
1.2 In the hardness tester, there is also an tensile strength (Rm) scale which, in compliance with
GOST 22791-77, enables to define tensile strength of carbon steel of pearlitic class by
automatic recalculation from Brinell hardness (HB) scale.
1.3 In the hardness tester, three additional scales (H1, H2, H3) are provided which make it
possible:
?toconducthardnesstestonotherscales(i.e.,RockwellB(HRB)scale,Superficial
Rockwell (HRNandHRT ) andother);
?toconduct hardnesstest on Leeb (HL) scale instead H1 scale during the measurement
by D1 dynamicprobe (rebound method);
?to conduct hardness test of metals which are significantly different by their properties
from steel (iron, aluminum and copper alloys etc.*).
To calibrate hardness tester, the user should dive not less than 3 samples of the tested article
material with different hardness (minimum, maximum and average).
Hardness tester calibration on the additional (H1, H2, H3) hardness scales can be made by
the manufacturer (according to the order, the service is free of charge) and the information
about it will be in the Technical Reference and Operational Manual (Attachment 2). The user
can make the calibration on additional hardness scales independently by himself following
the instruction of the present Technical Reference.
1.4 Hardness tester is equipped with microprocessor which enables to:
?Delete the measured hardness number in case of doubt in the correctness of the
measurement;
?Compute the average value of a series of the conducted measurements;
?Save the data in the non-volatile memory when hardness tester is switched off;
?Compute the average value from the data saved in the non-volatile memory;
?Transfer data from hardness tester non-volatile memory to the computer for further
printing out and diagramming;
1.5 The hardness tester enables to conduct hardness testing of a metal surface layer which was
fused, sprayed, mechanically or thermally or otherwise treated . Such hardness control is
impossible in case of fixed hardness testers which force through a superficial layer under big
loads. When hardness tester is used, the thickness of metal tested surface shall, at least, be
ten times more than the depth of the probe penetration (p.3). Hardness tester is designed for
non-destructive hardness control of large-sized equipment and the difficult for access places.
Such hardness control is not accessible for fixed hardness testers due to their technical and
design limitations.
Portable hardness testers in comparison with fixed hardness testers are characterized by a
higher productivity, the time of one measurement is 5 to 10 times less.
The hardness tester enables to conduct a quick test of a metal product hardness on site in the
process of operation or manufacturing, under the field or laboratory conditions in the sphere
4
1.1 of mechanical engineering, metallurgy, power generation, ship building and railroad
transport, in aviation and space industry, in oil and gas sector, in maintenance and service
companies etc.
Pressure vessels of various purpose (reactors, steam generators, collectors, boiler drums, gas
holders etc.), turbine and generator rotors, pipelines, rolls, crankshafts, gears, parts of various
vehicles, industrial prefabricates articles (castings, forgings, sheets and plates) etc. (MI 2565-
99. Recommendations. “State System for Ensuring Uniform Measurement. Field of
application of hardness testing devices which are subject to verification”).
1.2 The hardness tester can be applied for
?assessment of technological processes stability (equipment treatment, welding etc.);
?diagnostics of equipment with the purpose of assessment of its remaining safe life
(hardness control of pipelines, boilers etc.).
2. GENERAL RECOMMENDATIONS
2.1 The thorough study of the present Technical Reference and Operation Manual is a
mandatory condition for the hardness tester application! Only in this case you can use all
hardness tester possibilities and avoid such actions and errors which are likely to result in the
wrong test results. Read the present Technical Reference and Operation Manual attentively and
only after it start examining the hardness tester.
2.2 Operators training requires sufficient knowledge in the field of metal hardness measurement
and metrology on the whole.
2.2.1 In the process of the hardness tester operation, there is always a set of external factors
influencing the test accuracy:
?the condition of the tested article surface (surface stress, contamination, various coatings;
?ambient parameters (humidity, temperature, pollution etc.);
?homogeneity of the tested article material (p. 2.2.4).
2.2.2 The tested surface and the tested article as such shall correspond to the parameters given
in the hardness tester specifications (paragraph 3) and be prepared in the due form
(p.6.1.2). Otherwise, the correct results obtaining is not guaranteed.
2.2.3 The highest accuracy of the results is obtained in the process of testing conducted under
the conditions listed below:
?ambienttemperatureis5...45ºC
?relative humidity is 30 …80%;
?atmospheric pressure is 84 … 106 kPa.
2.3 In the process of hardness tester operation, no impact or vibration on it is allowed.
Careful operation and observation of all technical instructions hereof is the condition for
its reliable operation without maintenance for quite a long period of time.
3. TECHNICAL DATA
Scale Measurement range Error, not more than
Rockwell“C” 20…67 HRC ±2 HRC
Brinell 75…650 HB ±10 HB
Vickers75...999HV±15HV
Shore23…102HV±2HSD
ConnectionwiththecomputerviaUSBport,diagrammingand
printingthedataout, data base
Available
Measurements results processing, their averaging, recording and
archival data processing in the hardness tester memory
Available
Non-volatile memory – data saving in archive when hardness Available
5
Non-volatile memory – data saving in archive when hardness
tester is switched off
Available
Character LCD display: simultaneously displays a hardness
scale, operating mode, archive number and discharge level
indication
Available
LCD display lighting Available
The function of conversion from one hardness scale into another Available
Protective code excluding the possibility of an accidental
hardness tester calibration reset
Available
Hardness tester spatial position during measurements, no angle
correction is needed,0
0 … 360
Number of current measurements for average value
determination
1…99
Battery (NiMH, C size) charging full time, hours
?Through AC line adapter
?Through USB port from a switched on computer
10
10
Time of uninterrupted operation with fully charged battery, not
- less than, hours:
- without lighting
- with lighting
- from AC mains
20
5
Unlimited
Hardness tester power supply:
- AC mains, V/Hz
- battery, V
consumed power, not more than, V-A
90-240 V, 50 -60 Hz
1,2
1,5
Automatic power supply switch off, time, sec 150
Temperature range, ºC:
- during operation
- during storage and transportation
-5 … +45
- 15 … +65
Relative humidity, % 30 … 80
Precious metals and stones
- silver, mg
- diamond (U1 ultrasonic probe), carat
16,8
0,07
Overall dimensions (length/diameter), max, mm
?electronicmodule in plastic body [in alum. body]
?carry case
Overall dimensions (length/width/height), mm
?ultrasonic probe
?ultrasonic short probe
?dynamic probe
?short dynamic probe
145/80/40 [180/80/42]
240/180/75
160/225
80/40
140/25
80/25
Mass (electronic module in plastic body [in alum. body]), kg:
- module + ultrasonic probe
- module + dynamic probe
- as a complete set (gross)
0,36 [0,65]
0,31 [0.61]
1,0 [1.3]
The number of testing result in the memory (archive) of the
module for every hardness tester probe 100
Time for one hardness testing, sec.
- ultrasonic probe
- dynamic probe
4
2
6
Tested surface roughness, Ra
- ultrasonic probe,
- dynamic probe
2,5
3,2
Tested surface radius of curvature, mm
- ultrasonic probe
- dynamic probe
5
10
Tested article mass, not less than, kg
- ultrasonic probe
- dynamic probe
0,01
3
Tested article thickness, not less than, mm
- ultrasonic probe
- dynamic probe
1
12
Size of indentation on the tested article surface with 45 HRC
hardness, mm
- ultrasonic probe
- dynamic probe
0,07
0,7
Depth of indentation into a tested article with 45 HRC hardness,
mm
- ultrasonic probe diamond pyramid
- dynamic probe hard alloy ball
30
300
Probe resource (minimum number of testing):
- ultrasonic probe
- dynamic probe
200000
50000
Pressureforceonultrasonicprobe,notlessthan,H9,8
4. COMPLETE SET OF EQUIPMENT
Name Piece, number
Electronicmodule in plastic or aluminum body 1
Case for hardness tester fixing on the forearm, belt, neck 1
Connecting cable for power supply and data transfer to the computer via
USBport 1
U1ultrasonicprobe(forMET-U1/U1A;MET-UD/UDAhardnesstesters) 1
Connectivecableforultrasonicprobe(forMET-U1/U1A;MET-UD/UDA
hardness testers) 1
D1dynamicprobe(forMET-D1/D1A;MET-UD/UDAhardnesstesters) 1
Connectivecablefordynamicprobe(forMET-D1/D1A;MET-UD/UDA
hardness testers) 1
Batterycharger1
NiMhbatteryCsize (plastic body) / AA size (aluminum body) 1 / 4
Carrycase1
TechnicalReferenceandOperationManual1
VerificationCertificateof“VNIIFTRIFGUP1
USB Cableforcomputerconnection 1
CD with a software and technical support materials 1
7
ADDITIONAL ITEMS
(shall be additionally paid)
Reference hardness blocks(GOST 9031-75; 8.426-81) verified at FGUP “VNIIFTRI” for
hardness tester readings verification and calibration by user
MTR type (Rockwell): HRC, HRA, HRB
MTSR type (Super-Rockwell): HRN, HRT
MTB type (Brinell): HB
MTV type (Vickers): HV
MTSh type (Shore): HSD
Lapping fluid Dynamic probe: for setting test blocks and small-mass articles which were
preliminary fixed on to the testing plate. Ultrasonic probe: for fixing articles thinner than 1 mm
to the supporting plate of the holder.
Stand for U1 ultrasonic probe is used for testing of small-sized items under the condition of
reliable fixin. INSTRUCTION FOR -U1 STAND OPERATION:
1) To fix the probe in the tube of the stand. 2) To install the spring on top of the probe.
3) To close the upper part of the tube by the iron cup, pressing the spring by the
cup when closing. 4) To install the stand with the probe and the electronic
modulus on the desk in the position convenient for the operator. 5) With the help
of the eccentric handle, to open the probe in the maximum upward position.
6) To put the tested item on the stand base. 7) With the help of collet fixture, by
moving the arm, to fix the distance between the probe tip and the test block
surface of not more than 1 mm. 8) To switch the instrument on and to measure
hardness by lowering the eccentric handle down.
МЕТ
Battery operated grinder for preparation of testing area on the tested article, lessens surface
roughness, removes rust, wear hardening, scaling and joint weld processing.
Set of replaceable attachments for probes – for hardness testing of cylindrical and spherical
forms.
U1/2 short ultrasonic probe is a short model of U1 ultrasonic probe for testing within a limited
space (inner pipe diameter, sleeves etc.)
D1/2 dynamic probe is a short model of D1 dynamic probe for testing under the condition of
limited space.
Hardness tester complete set (fig.1):
1 – carry case
2 – probes
3–
4–
Technical Reference and
Operation Manual
5–
electronic module
6–
battery charger
7–
CD
USB cable for computer
1
4
5
67
2
3
8
5. DESIGN AND OPERATION PRINCIPLES
5.1 Hardness tester is a small-sized instrument designed to measure hardness. It consists of an
electronic module connected with a probe. The choice between ultrasonic and dynamic probe is
made depending on mass, configuration, structure, degree of mechanical and thermal treatment
of a tested article.
MET-UD combined portable hardness tester (fig.2):
1 – electronic module
2 — U1 ultrasonic probe
3 – D1 dynamic probe
Measurement result does not depend on the electronic module and probe spatial position.
5.2 Ultrasonic probe (ultrasonic contact impedance method – UCI) is a separate device
connected with electronic module by cable. Ultrasonic and dynamic probes differ in size only.
U1 Ultrasonic probe (fig.3):
1 – sleeve
2 – packing fit ring
3 – packing lower surface
4 – sleeve face
5 – probe body
6 – connective cable
7 – electronic module male connector
The probe basic part is a steel rod with Vickers diamond pyramid at the tip (the angle between
the facets is 136º), which as an acoustic resonator (vibrator) of the in-built ultrasonic frequency
self-excited oscillator. When the pyramid is forced on to the tested article under the calibrated
spring fixed load , the resonator natural frequency depending on the hardness of metal changes.
The oscillator natural frequency relative change is transformed by the electronic module into the
hardness number of the selected scale and is then shown on the display.
This method is suitable for hardness testing of articles with different mass and thickness
and, especially, of articles with thin walls and small mass.
The design of ultrasonic probe makes it possible to conduct testing without any visible imprints
on the surface in hard-reach places (for example, gear teeth etc.), of thin articles (for example,
pipelines etc.), where it is impossible to conduct measurements by dynamic probe.
It should be taken into account that the result of the testing conducted by ultrasonic method
depends on E - elasticity modulus of the tested article.
Limitation: it is not allowed to test articles with coarse-grain structure (for example, iron)
and articles with mass less than 10 kilo or thickness less than 1 mm!
In some separate cases, testing of an article with mass less than 10 kilo and wall thickness less
than 1 mm is possible but only under the condition of using additional accessories to ultrasonic
probe. For a consultation it is required to contact the manufacturer.
1
3
2
1
5
6
7
2
3
4
9
RECOMMENDATION. To test articles with wall thickness less than 2 mm and R of surface
curvature less than 18 mm, it is recommended to use accessories to ultrasonic probe (holder,
replaceable attachments etc. – see paragraph 4)
5.3 Dynamic probe (rebound method) is a device connected with electronic module by cable. D1
dynamic probe and D1/2 short dynamic probe differ in size and spring retracting principle.
D1 dynamic probe (fig.4):
1 – start button
2 – the probe body upper part
3 – the probe body lower part
4 – inductor
5 – hammer
6 -- probe connector plug
7 – electronic module male connector
8 – tester body male connector
Hardness testing principle is based on the determination of the ratio of the stroke and rebound
speed of the hammer which is located inside the probe. At the end of the hammer, there is a
hardmetal ball which contacts directly with the tested surface at the moment of the stroke. Inside
the hammer, there is a permanent magnet. After pushing the start button and with the help of the
preliminary taken up spring, the hammer is forced on to the tested surface. During this process,
the hammer is moving inside the inductor and induces its own electro-motive force. The signal
from the inductor outlet is sent to the electronic module inlet where it is transformed into the
hardness number of the selected scale and is then shown on the display. Hardness testing is
carried out in compliance with ASTM A965-02 “Standard Test Method for Leeb Hardness
Testing of Steel Products”.
This method is suitable for hardness testing of massive articles, coarse-grain articles and
cast and forged pieces.
The probe design enables to conduct a large number of tests over a unit of time, and to operate it
does not require any special skills as, for example, in case of ultrasonic probe.
Limitation: it is not allowed to test articles with the mass less than 3 kilo or thickness less
than 12 mm!
Testing of articles with mass less than 3 kg and thickness less than 12 mm is possible if:
?cast iron testing plate (GOST 10905-86) or certified metal plate with the mass not less
than 5 kg is available;
?lapping liquid for the tested article lapping to the support plate is available;
?the testes article shall be lapped to the support plate TIGHTLY.
When testing of magnetized materials is carried out, the error may increase due to the steel
magnetic field impact on the readings of the hammer movement inside the inductance coil speed.
5.4 Hardness tester electronic module (fig.5)
isaseparatedeviceinaplastic or aluminum body:
*Onthefrontsidethereis:
1
:
1) LCD (hereinafter referred to as the “display”);
2) four functional push buttons (?,?,?,?);
3) hardness tester type indication;
*onthebacksidethereis:
1)serialnumber;
2) hardness tester operation diagram;
1
5
6
7
2
3
4
1
2
3
1
2
4
3
10
3) manufacturer data;
4) closed compartment for battery;
5.5 On the electronic probe back side, there is hardness tester operation diagram :(fig.6)
5.6 Menu is used for hardness tester operation control. Every level of the menu allows the
selection of parameters or modes of operation.
*on the upper end there is:
1) four-pin plug for connecting to a computer or a charger;
2) five-pin plug for probe connection
oThe first level – “scale” – allows to choose the current (operational) hardness scale from
the following: HRC, HB, HV, HSD, R m, H1, H2 or H3 and also other scales as it is
ordered.
oThe second level - “measurement-calibration-processing” - allows to select the current
(operational) hardness tester mode: measurement, calibration or processing.
oThe third level – “YES/NO” allows to confirm or cancel the selected operation and get
back to the former operations by pushing ?button.
5.7 Push buttons ?and ?allow to choose the menu level, and push buttons ?and ?allow to
select a parameter within the level.
5.8 Hardness tester power supply.
5.8.1 The battery located in the closed compartment from the electronic module back side is the
source of the hardness tester power supply. Battery should be installed in compliance with given
polarity.
If hardness tester is not in operation for more than fourteen days, the battery shall taken out from
the electronic module compartment.
5.8.2 The battery charge indication is shown under “battery” symbol in the electronic probe
display upper part. Three dark squares inside the symbol show the battery full charge. As the
battery discharges, the squares disappear one by one from top to bottom. One dark square or
absence of any square means the necessity to charge the battery. “Battery” symbol is shown
on the display under any hardness tester mode of operation. 5.8.3 Battery charging can be from
AC mains through a charger .(fig.7)
1 2
HRC  HB  HV  HSD  Rm  H1  H2  H3
TEST CALIBRATION PROCESSING
Measurement on test block 1
Scale corection
Measurement on test block 2
Scale corection
Measurement & archive Sample limits setting
and average value
determination
Archive
11
A specific flick of the lock confirms that the operation was done correctly. The charger is
connected to the electronic module. Plug in the USB connective cable. The charger is switched
to the electronic module.
5.8.5 Connect the charger to the AC mains. When the power is on, the optical diode will be red.
The battery charging process has started. After the charger has been connected to the AC mains,
the “battery” symbol squares on the switched on hardness tester
display will get one by one darker from bottom to top. It means that the
battery charging has begun. In the process of charging, the battery and
the charger case may get slightly warm which is not a defect.
(fig.9)
5.8.6 The battery can be charged via USB port. To charge hardness test (with the installed
battery) via USB port, first connect a four-pin plug to the hardness tester electronic module (see
paragraph 5.8.4) and after that USB port plug to the computer. The battery charging process has
started. Hardness tester itself shall be switched off.
5.8.6 Hardness tester NiMh battery does not contain any heavy metals harmful for health.
Nevertheless, for environmental protection purpose, do not throw used batteries away to the
household rubbish container. You may send it back to the manufacturer or utilize in compliance
with the rules for used batteries utilization.
6. OPERATION PROCEDURE
6.1 PREPARATION FOR OPERATION
6.1.1 VISUAL INSPECTION
Make visual inspection of the device, make sure that there is no mechanical damage of the
electronic probe, connective cable. Check the integrity of the seals on the electronic module (in
the battery compartment) and the probe. (paint on the thread connection). Inside the probe, there
is a seal destroyed when the probe is disassembled (shall be opened by the manufacturer
only!)
To connect the charger, make the following steps:
oTurn the lock counterclockwise up to the stop;
oBring the plug of the charger into coincidence with the electronic module plug so that they
coincide;
oInsert the plug up to the stop by pushing slightly;
oTurn the lock clockwise up to the stop.
lock
lock (fig.8).
connective power cable pin plug is equipped with a rotating cylindrical. Connective cable four-
5.8.4 The charger is connected to the electronic module (with the installed battery only!) through
It is prohibited to connect the charger to the electronic probe without the battery.
It is allowed to charge the battery and work with the hardness tester simultaneously.
4 – 4-pin plug of connective cable for connecting
to electronic module
1
2
3
4
3 USB mail connector of power cable
USB port for power cable male connector2–
1 – red optical diode
Charger
12
13
6.1.3 PROBE CONNECTION
Probe shall be connected to the electronic module by a connective cable. The connective cable
connection to:
?U1 ultrasonic probe: plug the cable into the probe connector hole and move it as far as it
will go, after that tighten the metal fixing device;
?D1 dynamic probe: plug into the inductor connector hole as far as it will go (in some
models, there is no such connector hole)
Probe with the connective cable is connected to the electronic module through five-pin plug
equipped with a rotating cylindrical lock (paragraph 5.8.4).
To connect the probe, make the following steps:
oturn the lock counterclockwise up to the stop;
obring the five-pin probe plug into coincidence with the electronic module plug so that
they coincide;
oInsert the plug up to the stop by pushing slightly;
oTurn the lock clockwise up to the stop.
A specific flick of the lock confirms that the operation was done correctly. The probe is
connected to the electronic module.
6.1.4 POWER SUPPLY SWITHCING ON
oPress ?button for some time (-2 sec);
oAfter switching for a short time the words “probe connection” will appear for a short time
(-2 sec);
oElectronic module will recognize the type of the connected probe and the relevant words,
either “ultrasonic probe” or “dynamic probe” will appear on the display (-2 sec);
oAfter these steps, hardness tester will automatically start operation in the mode which
was used before it was switched off.
For pipes : from 4% to 5% from the wall thickness, but not more than 2 mm.?
?Cast articles surface : not more than 4 mm;
Forged or drop forged surface : not less than 2 mm;
?The area of the tested surface shall be free from humidity or contamination (oil, dust
etc.), lubricants, scale, oxide film, rust.
?The distance between the supposed centre of the tested area and the edge of the tested
article surface or the next imprint shall not be less than 3,5 of the diameter (length of
diagonal) of the imprint (paragraph 3).
?In case there is a decarburized layer, surface hardening or nitration case within the tested
area, this surface layer shall be removed (only for U1 ultrasonic probe).
To prepare the area of the tested surface it is recommended to use grinder (additional equipment,
paragraph 4) or polishing paper, after that it is necessary to clean the area with a cleaning cloth.
In the course of the surface preparation procedure it is necessary to take the precaution measures
against the possible change in the hardness of the tested article due to heating or hardening of the
tested surface in the process of the mechanical treatment. The recommend depth of the layer to
be removed:
?-
6.1.2 TESTED ARTICLE PREPRATION
The mandatory requirements to the tested article:
?During the testing period, the tested article shall be under no load from the main
operational loads.
?The article mass and thickness shall comply with paragraph 3 requirements.
The mandatory requirements to the article surface shall correspond to the parameters given in
?The roughness and radius of curvature of the tested surface shall correspond to the
parameters given in paragraph 3.
14
6.2.1.3 OPERATION CANCELING
To cancel an operation or to return to the previous one use ?button.
6.2.2 “TESTING” MODE
6.2.2.1 “Measurement” mode and all operations within this mode shall be conducted separately
for U1 ultrasonic probe and D1 dynamic probe. The given below operations can be performed in
this mode:
oarchive
otesting and recording
6.2.2.2 “ARCHIVE” OPERATION
Hardness tester operation in “measurement” duty always starts with the “Archive” operation.
Indication on the display is shown on the figure below (fig.10):
Attention! During the first operation it is recommended to skip the “archive” operation
and proceed with “measurement and recording” operation. For this purpose, push ?
button and then got to paragraph 6.2.2.3.
Archv. ?: 63
HV
838
oConform the required for you mode by pushing ?button. The hardness tester is ready for
operation.
“processing” by pushing ?or ?buttons.
6.1.5 POWER SUPPLY SWITHCING OFF
oPower supply switching off takes place automatically without any operation with push
buttons or probe (-150 sec)*;
oIt takes place if ?and ?buttons are pushed simultaneously;
oIt takes place in case the battery is discharged;
*Due to the hardness tester power supply automatic switch off, the time of its operation
increases without any additional battery charging.
6.1.6 DISPLAY LIGHTING
Display lighting is switched on and off by short-time (-1 sec) pushing ?button from the menu
first level (scale).
Hardness tester operation under the negative ambient temperature (<0C) shall be with the
lighting on.
Attention! Operation with display lighting reduces the time of the device operation since
the battery charges faster!
6.2 OPERATION WITH ELECT RONIC MODULE
6.2.1 BEGINNING OF WORK
6.2.1.1 SCALE SELECTION
oStart work with the first level – “scale” – by pushing ?button. In the display upper part,
words “XXX scale” will appear, where “XXX” is a hardness scale (paragraphs 1.1 and 1.3),
and in the display right side, “battery” symbol will appear (5.8.2).
oSelect the hardness scale you need by pushing ?and ?buttons.
oConfirm the selection of the required for you hardness scale by pushing ?button. After that
you will get to the second level automatically.
6.2.1.2 OPERATION MODE SELEC TION
oSelect the required for you operation mode – “measurement” or “calibration”, or
measurement №01” the number of the archive cell which is offered for recording of the
measured value on Brinell hardness scale (HB);
probe” symbol of the probe;
battery” symbol of the battery.
6.2.2.3.3 Blinking probe symbol means that the hardness tester is ready to conducting
measurements. How to use the probe in the process of “measurement and archive” operation is
described in paragraph 6.3. After the sound signal, the measured on the selected by you hardness
scale value appears on the display (paragraph 6.2.1.1). The measurement number (07) and the
measured value (375) on the hardness scale (HB) correspond to every conducted measurement.
The archive cell number (measure №01) remains unchanged.
6.2.2.3.4. Conducted measurements mean value is computed by pushing ?button. The number of
measurements which are taken for the mean value calculation is show in the current
measurement number (07), i.e. having conducted 7 measurements and by pushing ?button, you
will obtain the mean value.
After the mean value computation, the hardness tester will automatically start the “archive”
operation for you to save the obtained result. If you do not want to save the result and want to
continue your measurement, push ?button to switch to “measurement and recording” operation.
6.2.2.3.2
” Brinell hardness scale;
” current measurement number
” the measured value on Brinell hardness scale (HB);
The meaning of words and symbols on the display.
HB
07
375
Measur ?: 01.
375
07
HB
(fig.11).
go out from the “archive” operation. Indication on the display is shown on the figure below
6.2.2.3.1 Start “measurement and recording” operation by pushing ?button in order to finish and
6.2.2.3 MEASUREMENT AND RECORDING” OPERATION
“processing” mode (paragraph 6.2.4)
6.2.2.2.4 To process data in the archive, (mean value computing and archive clearing) switch to
Attention! Conversion from one hardness into another has an error.
the selected by you scale.
6.2.2.2.1 The meaning of words and symbols on the display
“HV” Vickers hardness scale;
“838” the measured value on Vickers scale;
“Archive #63” - the number of the archive cell in which measurement #838 on Vickers scale
(HV) is stored;
“battery” is battery charge symbol.
6.2.2.2.2 Archive cell number changing
The change of the archive cell number is done by pushing ?or ?buttons. The change of the
archive cell number (Archive #63) will result in the change of the readings of the measured value
(838) into the readings of another measured value saved under the relevant archive number (#61;
63; 60, 64 etc.). The hardness scale (HV), however, will remain unchanged.
It means that if you conducted your measurement on HRC scale and sent it to the archive under
#3 and #4, and the archive is looked through from HV-838-Archive #63, the hardness tester will
automatically transfer HRC and HB hardness scales into HV scale and will show the values of
cells ##1, 2, 3 and 4 on HV scale.
6.2.2.2.3 Conversion of the measured value from one hardness scale into another
?select the scale you need (paragraph 6.2.1.1)
?turn to “archive” operation (paragraph 6.2.2.2)
?by pushing ?or ?buttons, look through the archive;
?all values obtained earlier in other hardness scales will be automatically converted into
15
6.2.3.4 It is recommended to perform hardness tester calibration by users in the period between
verifications in the listed below cases:
oIf in the process of the hardness tester verification on the reference hardness block the
readings are stable but differ from the nominal value of the reference hardness block;
oafter long period of storage (more than 3 months);
oAfter intensive operation (more than 200.000 measurements for U1 ultrasonic probe and
50.000 for D1 dynamic probe);
oIn case of considerable change in the conditions of operation (ambient temperature, humidity
etc.)
6.2.3.5 For hardness tester calibration by user, it is necessary to have two reference hardness
blocks with maximum and minimum values on the controlled part of the hardness scale.
Examples:
oFor calibration along the whole “C” Rockwell scale, TWO reference hardness blocks are
required with the values of (25?5) HRC and (65?5) HRC.
oIf you do not use the whole range of “C” Rockwell but only the range of 20?40 HRC,
perform the calibration on reference hardness blocks with the values of (25?5) HRC and
(45?5) HRC.
probe mechanical parts (spring, hammer) in the process of long and intensive operation.
the accuracy of hardness tester readings under the condition of the possible wear and tear of the
hardness tester had been manufactured. (paragraph 1-1). Calibration makes it possible to restore
6.2.2.3.5 Deleting measurement hardness value (375) within the “measurement and recording”
operation is made by ?button pushing. It is recommended to delete the last measurement result
in case there appear some doubts in the correct measurement procedure.
6.2.2.3.6 Recording in the archive shall be started from selecting the cell number and “archive”
operation (paragraph 6.2.2.2.2), after that go to “measurement and archive” operation by pushing
?button.
oto set -00- in the current measurement (07), transition from “measurement and recording”
operation to “archive” and back by pushing ?button two times shall be performed;
oRecording the measured hardness value (375) or mean value (paragraph 6.2.2.3.4) into the
archive is done by ?button pushing. In doing so, the number of the archive cell for
measurement recording (measure №01) will be automatically increased by 1 (measure №2).
oIt is recommended to set “00” in the current measurement number for every new set of
measurements.
oRecording into the archive of the measured hardness number (375) or mean value (paragraph
6.2.2.3.4) shall be made by pushing ?button. In this case, the number of the archive cell for
measurement recording (measure №1) will remain unchanged. This is convenient for
changing the archive cell content .
6.2.3 “CALIBRATION” MODE
6.2.3.1 Shall be carried out by highly skilled personnel only and only in the case of production
necessity.
It is not allowed to use reference hardness blocks the shelf life of which has expired (2 years
from the last comparison) or the surface of which was used by more than half (GOST 9031-75)
6.2.3.2 “Calibration” mode and all operations under this mode shall be performed separately for
U1 ultrasonic probe and D1 dynamic probe.
It is recommended to perform hardness tester operation in “calibration” mode when not less than
two squares of the battery charge indication is on.
6.2.3.3 The process of hardness tester calibration by users means bringing mean hardness value
of a reference hardness block measured by the hardness tester into the line (equality) with its
nominal value (engraved on one of its sides in compliance with GOST 9032-75).
Hardness tester calibration by users on HRC, HB, HV, HSD scal es allows to introduce a
correction to hardness tester calibration established by the manufacturer straight after the
16
6.2.3.7.1 Hardness tester calibration by users requires highly skilled professional personnel. If
you failed to introduce the correction to the hardness tester calibration for the second time or if
you doubt the results of the conducted “Calibration” operation, it is recommended to perform
“Clear cal.” operation. To obtain technical support, keep in touch with the maintenance service
of the hardness tester manufacturer.
6.2.3.7.2 To clear calibration correction introduced independently, perform the following steps:
oselect the scale (paragraph 6.2.1.1);
oenter “Calibration” mode (paragraph 6.2.1.2);
oenter the code;
opush ?button.
After performing “Clear cal.” operation the hardness tester will get to the initial hardness tester
calibration set by the manufacturer straight after manufacturing (paragraph 1.1)
6.2.3.7 “CLEAR CALIBRATION” OPERATION .
(paragraph 6.2.3.5)
function (paragraph 6.2.3. ) and repeat “CALIBRATI ON” operationCALIBRATION 6
6.2.3.6 “CALIBRATION” OPERATION
Select the scale (paragraph 6.2.1.1) and enter into “Calibration” mode. (paragraph 6.2.1.2).
6.2.3.6.1 Enter the code (it is in the sealed envelope inside the Technical Reference and
Operation Manual). Push ?button. The display indication in the “Calibration” mode is show on
the Figure below (fig.12).
6.2.3.6.2 The meaning of words and symbols on the display.
HRC” Rockwell hardness scale;
02” current measurement number
64,2” the measured value on Rockwell hardness scale (HRC);
Calibrat№2” calibration number;
probe” blinking symbol;
battery” symbol of the battery charge.
6.2.3.6.3 Measurements on reference hardness block #1 (step 1) – obtaining of mean hardness
number. Take one reference hardness block. Conduct not less than FIVE measurements!
Average the obtained values by pushing ?button. Confirm the end of this step by pushing ?
button.
6.2.3.6.4 Correction (step 2) – bring into the line (equality) the measured by the hardness tester
MEAN and NOMINAL hardness value (paragraph 6.2.3.3). By pushing ?or ?buttons change
the MEAN value of the hardness tester up to the NOMINAL value on the hardness reference
block. When the value coincide (become equal), push ?button.
6.2.3.6.5 Measurement on reference hardness block №2 (step3) –repeat the actions described
in paragraph 6.2.3.6.3.
6.2.3.6.6 Correction (step 4) – repeat the actions described in paragraph 6.2.3.6.4. Pushing ?
button will lead to the completion of the step and going out from “Calibration” mode.
6.2.3.6.7 Verification of the hardness tester re adings after the conducted calibration.
Measure the hardness of reference hardness block №1 (not less than 5 measurements) and
compute its mean value (paragraph 6.2.2.3.4). The obtained value shall correspond to its nominal
value within the hardness tester error (paragraph 3).
If the obtained value exceeds the hardness tester error limit (paragraph 3), then perform “CLEAR
Calib. ?: 02
HRC
02 64,2
17
18
6.2.5.3 Operation procedure
?Connect the power and data transfer cable to hardness tester electronic module through
four-pin plug (paragraph 5.4) and to the switched on computer via USP port. It is not
required to switch the hardness tester on.
?Insert the attached CD into the computer.
?Install USB driver from “InstallDRVMET” file in compliance with the “Instructions for
USB driver installation”.
?Install “MET hardness tester” soft-ware going to “InstallMET” file and double clicking
on “SETUP_EXE_EXE” file.
6.2.5.2 Hardness tester soft-are is suitable for WINDOWS (from 98 version to XP).
and selection from the general volume what is necessary for graphs preparation and the further
printing out of the results.
e, paragraph 6.2.2.2) to the computer for the purpose of saving, processing, looking through
6.2.4 “PROCESSING” MODE
6.2.4.1 “Processing” mode and all operations within this mode shall be conducted separately for
U1 ultrasonic probe and D1 dynamic probe.
6.2.4.2 Within this mode the listed below operations can be carried out:
ocompute mean value;
oclear archive.
Select the scale (paragraph 6.2.1.1). Enter the “processing” mode (sequence of buttons is:
???). Select the necessary for you operation by ?or ?button and confirm your selection by
pushing ?(yes).
6.2.4.3 “MEAN VALUE” OPERATION
“Mean value” operation is used for mean value computation within any interval of the archive
cell (sample interval). Display indication is shown on the Figure below (fig.13).
6.2.4.3.1 The meaning of words and symbols on the display.
oHSD” Shore hardness scale;
o96,7” mean hardness value on Shore scale (HSD);
o“>01 mean 07” sample interval;
obattery” battery charge symbol.
The display shows the result of the hardness mean value (96,7) on Shore scale (HSD) for the
archive cells from number one through number seven (<01 mean 07)
6.2.4.3.2 Setting the limits for sample mean value computation:
oPush ?button to move < or > sign to the left initial (>01) or the last right (<07) sample limit;
oEvery push of ?or ?button will decrease or increase the left (>01) and the right (<07)
number of the sample limits by one;
oThe sample mean value is computed and shown on the display automatically (“96,7”)/
“Mean val.” operation does not change the archive cells content. “Mean val.” operation is
performed only for filled in cells within the sample limits.
6.2.4.4 “CLEAR ARCHIVE” OPERATION
“Clear archive” operation is designed for deleting from the hardness tester memory ALL content
of the archive cells, i.e. reducing to zero of ALL data.
In the “Processing” operation mode, select “clear archive” operation by pushing ?or ?button.
Push ?(yes) button. The words “Please, wait, clear archive” will appear and in two seconds the
archive will be deleted.
6.2.5 CONNECTION WITH COMPUTER
6.2.5.1 The function is for date transfer from hardness tester non-volatile memory (“archive”
mod
>01 07Avrg.
HSD
96,7
19
oInstall the probe with its packing lower surface to the measurement area of the tested
article. Press the packing with two fingers of one hand to the measurement area and keep it
stable in the process of measurement. Take the body of the probe in the other hand.
oPress into the probe body slightly until the first resistance – diamond pyramid of the rod
comes up against the surface. Increase the effort immediately until the second resistance
(stop) – the diamond pyramid is forced into the surface. The effort should be made
smoothly*. Be sure that your hand does not shake so that the probe body is stable. For the
probe correct operation, it is necessary to apply an effort of not less than 14,7 N (1,5 kgf) to
its body and keep is stable in the process of measurement. Do not be afraid to apply an
excessive effort to the probe body, it will be limited by the stop.
oBlinking of “probe” symbol on the display means that the hardness tester is ready to conduct
measurements.
?Operate “MET hardness tester” software going to “All software” in the start menu on
your computer.
?In the opened window, of “MET hardness tester” soft-ware, push “?Help” button and set
the operation of the computer with the hardness tester in compliance with “Inquiry”
section.
6.2.5.4 When hardness tester is connected to the switched on computer via USB port, the
battery charging takes place.
6.3 WORK WITH PROBE
6.3.1 U1 ULTRASONIC PROBE
6.3.1.1 Check if the probe packing for (yellow colour, hereinafter referred to as the “packing”) is
installed correctly: the end face of the probe sleeve shall coincide with the packing lower
surface. If the end face is deepened into the sleeve or sticks out, it shall be reinstalled. For this
purpose, unscrew the packing fit ring, match the packing lower surface with and the sleeve end
face in one surface, screw the sleeve fit ring.
Check whether the sleeve has been installed properly before the beginning of
measurement!
6.3.1.2 Fulfill the requirements to the tested article (paragraph 6.1.3), connect the probe to the
electronic module, switch on the hardness tester power supply (paragraph 6.1.4) and turn to the
“measurement” duty (paragraph 6.2.2.3).
6.3.1.3 Ultrasonic probe is extremely sensitive, that is why to operate it, the user should have
special skills and habits. In the process of testing, the article shall be fixed and the probe shall be
installed perpendicular to the measurement area. To avoid any damage to the diamond pyramid,
do not install and move the probe sharply along the tested surface. After pushing on the probe, it
is PROHIBITED to move it along the article surface!
To avoid wrong actions in the process of testing and to ensure reliable fixing, it is recommended
to use additional accessories to U1 ultrasonic probe: holder, lapping fluid, replaceable
attachments for cylindrical and spherical surfaces (paragraph 4).
6.3.1.4 THE FIRST MEASUREMENT
Loading diagram for U1 ultrasonic hardness probe (fig.14):
insta ll the probe make a light effort increase the effort keep the effort stop the effort
measurement area resistance stop
S
1,5 kg
20
oBlinking of “probe” symbol on the display means that the hardness tester is ready to conduct
measurements.
oInstall the probe to the article measurement area. With your one hand hold the inductor (the
probe lower body), with the other hand, hold the probe upper body. The upper probe body
shall be then moved to the lower body up to the stop and then set it free. The spring is taken
up and the probe upper part returns to the initial position independently.
oPress the launch button in the probe body upper part smoothly. Be sure that the probe does
not move and is properly pressed to the measurement area.
oAfter pushing the launch button and the hammer stroke at the measurement area, there will
be a sound signal after which the indication of the measured hardness value will appear on
the electronic module display.
6.3.2.4 EXPERIMENTAL MEASUREMENT
It is advisable to consider the first measurement as experimental measurement. In order to
acquire some experience of how to use the probe, it is recommended to conduct a number of
experimental measurements.
6.3.2.3 THE FIRST MEASUREMENT
oKeep the constant effort on the probe body during 3-4 seconds. “Probe” symbol on the
display will stop blinking.
oAfter the sound signal and appearance of the hardness value on the electronic probe display,
stop making the effort on the probe body. The “probe” symbol on the display will start
blinking again, and the probe body will under the spring effort return to the initial position.
The first measurement has been completed, and the hardness tester is ready for the next
measurement.
*In case of sharp pressing on to the probe body, diamond pyramid can hit the surface of the
tested item, and due to this the measured hardness value will be incorrect.
6.3.1.5 EXPERIMENTAL MEASUREMENT
It is advisable to consider the first measurement as experimental measurement. In order to
acquire some experience of how to use the probe, it is recommended to conduct a number of
experimental measurements.
oAfter experimental measurement conducting, push ?button to delete the result and
exclude it from the article mean hardness value computation (paragraph 6.2.2.3.5).
oAfter a number of experimental measurements has been conducted for the purpose of
acquiring some experience of using the probe, you may use “Clear archive” function to
delete the results of the experimental measurements (paragraph 6.2.4.4).
6.3.1.6 ACQUIRING SOME EXPERINCE OF WORKING WITH THE PROBE
6.3.1.6.1 To acquire experience of working with the probe, it is recommended to use reference
hardness blocks. Measure the hardness of a reference hardness block (not less than 5
measurements) and compute its mean value. If the obtained value does not correspond to the
number of the reference hardness block, conduct one more measurement.
6.3.1.6.2 If the hardness tester readings are stable and the obtained mean value corresponds to
the reference hardness block rated value considering the hardness tester error (paragraph 3), you
may further proceed with the hardness tester.
6.3.1.7 The rules of U1/2 short probe operation are similar to those for U1 ultrasonic probe.
Holders for U1/2 are not produced.
6.3.2 D1 DYNAMIC PROBE
6.3.2.1 Be sure that the requirements to the tested article (paragraph 6.1.2) are observed, connect
the probe to the electronic module (paragraph 6.1.3), switch the power supply on (paragraph
6.1.4) and turn to the “measurement” mode (paragraph 6.2.2.3).
6.3.2.2 In the process of measurement, the article shall be fixed and the probe shall be fixed
perpendicular ! to the measurement area. At the moment of start button pushing, IT IS NOT
ALLOWED to move the probe along the tester surface.
  • Page 1 1
  • Page 2 2
  • Page 3 3
  • Page 4 4
  • Page 5 5
  • Page 6 6
  • Page 7 7
  • Page 8 8
  • Page 9 9
  • Page 10 10
  • Page 11 11
  • Page 12 12
  • Page 13 13
  • Page 14 14
  • Page 15 15
  • Page 16 16
  • Page 17 17
  • Page 18 18
  • Page 19 19
  • Page 20 20
  • Page 21 21
  • Page 22 22
  • Page 23 23
  • Page 24 24

MET MET-D1A User manual

Category
Measuring, testing & control
Type
User manual
This manual is also suitable for

Ask a question and I''ll find the answer in the document

Finding information in a document is now easier with AI